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Airflow and BSC

Airflow and BSC. Biosafety and Biosecurity Awareness Training For Afghan and Pakistani Bioscientists January 12-14, 2010. SAND No. 2008-0480P

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Airflow and BSC

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  1. Airflow and BSC Biosafety and Biosecurity Awareness Training For Afghan and Pakistani Bioscientists January 12-14, 2010 SAND No. 2008-0480P Sandia is a multiprogram laboratory operated by Sandia Corporation, a Lockheed Martin Company,for the United States Department of Energy’s National Nuclear Security Administration under contract DE-AC04-94AL85000.

  2. Biological Safety Cabinets (BSCs) • Primary means of containment • Three design types • Class I, Class II, and Class III • Designed to provide protection for • Personnel • Directional flow of air into cabinet • Environment • HEPA filtered exhaust • Product (except Class I) • Laminar flow of HEPA filtered air • But, how?

  3. Personnel Product Environment Chemical Fume Hoods x Laminar Flow Clean Benches x Class I Biological Safety Cabinet x x Class II Biological Safety Cabinet x x x Class III Biological Safety Cabinet x x x Isolators x x x Primary Barriers – Ventilation Equipment

  4. How do HEPA Filters Work? • HEPA = High Efficiency Particulate Air • Minimum efficiency of 99.97% removal of 0.3 micron particles • HEPA filters do not filter out gases, vapors or volatile chemicals, they only filter out particulates (bacteria and viruses)

  5. Class I Biosafety Cabinet • Provides personnel and environmental protection, but no product protection • Typical applications include: Housing centrifuges, fermenters, cage dumping in an animal lab LABCONCO A. Front openingB. SashC. Exhaust HEPAD. Exhaust plenum NUAIRE

  6. Class II Biosafety Cabinet • Provides personnel, environmental, and product protection • Type A2 • Exhaust to room or outside through thimble connection • 30% recirculated, 70% exhausted • Type B2 • Must be hard ducted to outside • Total exhaust (100%) • Pro: may be used with volatile chemicals • Con: more expensive to operate, harder to balance airflows in lab

  7. Class II, Types A2 and B2

  8. Class III Biosafety Cabinet

  9. Primary Barriers: Working in Biosafety Cabinets • Proper technique is critical to maintaining personnel and product protection! • Elements • Decontamination • Setup • Work flow • Locations of supplies and waste containers • Movement in and out • Others • Workflow from clean to contaminated (“dirty”)

  10. Recognizing the Limitations of BSCs • Personnel protection depends on inward airflow through the work opening • Requires proper techniques by user • Only small quantities of volatile chemicals in any type of BSC • Motors on standard BSCs are not sparkproof • Should not use bunsen burners or alcohol lamps in BSCs • Over time, heat can damage the HEPA filter • Heat can create turbulent airflow, compromising protection • And, potential for fire to destroy BSC • Buildup of flammable vapors with 70% recirculation • BSCs need to be tested and certified regularly to have assurance getting expected protection • Prior to service • After repairs or relocation • Annually

  11. Building BSC Room Tube Secondary Barriers • Contain the agent within the room or facility in case an agent escapes from the primary barriers • Building & Room Construction • Separated from public areas • Easily cleaned • For containment laboratories: • Room penetrations sealed • Double-door entry • HVAC Issues: • Directional airflow • Exhaust filtration • Other Engineering Controls: • Solid waste treatment • Wastewater treatment

  12. How do You Establish Directional Airflow? • Airflow Offset Control • Relies on airflow through doors at all times • “Leaky Box” concept • Provides “Zone Control” of hazards and odors Lab Zone 1 Lab Zone 2 Lab Zone 3 Airflow

  13. Airflow Offset Control 900 cfm Supply 1000 cfm Exhaust 100 cfm “Leaky” Level 3

  14. Verifying Correct Airflow Before Entering Lab

  15. Heating Ventilation and Air Conditioning (HVAC) Issues • Pressure monitoring devices at entry • Smoke test • HVAC controlled to prevent sustained positive pressurization • Interlock exhaust/supply • Alarms for HVAC failure (inside and outside the facility) • Exhaust air HEPA filtered (sometimesnecessary) • Sealed ductwork • Backflow prevention on supply air (Damper, HEPA)

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